Abstract
In this work, a matrix inversion algorithm for beta spectrometers is proposed that relies on Monte Carlo simulations of single-energy bin distributions. The algorithm allows for high resolution statistical correction of measured beta spectra and does not lead to underdetermined equation systems. An advantage of the method is that a prior knowledge of the true spectrum is not needed. The algorithm is consistent for unfolding beta spectra measured with Metallic Magnetic Calorimeters that employ 4π solid angle absorbers. It also shows considerable potential for being applied to microcalorimeters with other absorber geometries.
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